发布于:2018-06-18 星期一 22:13:47 点击数:5571
李润(助理教授)可见光光催化化学反应
邮箱:lirun@hnu.edu.cn
ORCID ID: 0000-0002-9759-134x
办公室:材料学院311室
热忱欢迎对碳素和光敏材料方向感兴趣的学生报考本人研究生
基本信息2014/09-2017/10,博士,德国马普高分子研究所,化学
2011/09-2014/03,硕士,上海交通大学,材料科学与工程
2007/09-2011/06,学士,江南大学,高分子材料与工程
2018/05-至今,助理教授,湖南大学,材料科学与工程学院
2017/11-2018/02,博士后,德国马普高分子研究所,合作导师:Katharina Landfester,Kai Zhang
碳系材料的光敏性能研究;
聚合物基光催化剂的设计、优化及光学活性研究;
光驱动化学反应的设计及光诱导电子转移机理的分析;
有机/无机复合光敏材料的制备及应用。
工作展示:
Single atomically anchored cobalt on carbon quantum dots as efficient photocatalysts for visible light-promoted oxidation reactions
Qin Wang, Jin Li, Xianjun Tu, Hongbo Liu, Miao Shu, Rui Si, Calum T. J. Ferguson, Kai A. I. Zhang*, and Run Li*, Chem. Mater. 2020, 32, 734-743. link
CO2-triggered reversible phase transfer of graphene quantum dots for visible light-promoted amine
Xianjun Tu, Qin Wang, Feng Zhang, Fang Lan, Hongbo Liu and Run Li*, Nanoscale, 2020, 12, 4410-4417. link
Visible light-mediated conversion of alcohols to bromides by a benzothiadiazole-containing organic photocatalyst
Run Li*, Dominik W. Gehrig, Charusheela Ramanan, Paul W. M. Blom, Fabien F. Kohl, Manfred Wagner, Katharina Landfester, and Kai Zhang*, Adv. Synth. Catal. 2019, 361, 3852-3859. link
主持项目:
湖南省自然科学基金青年基金项目,聚合物基异相光催化剂的设计及其在可见光光化学反应中的应用,2019.01-2021.12,在研,主持;
国家自然科学基金委青年基金项目,可见光调节生物酶催化体系的构筑及其在有机合成反应中的应用,2019.01-2021.12,在研,主持;
湖南大学科研启动项目,聚合物基光催化剂的设计及其在可见光驱动化学反应中的应用,2018-2022,在研,主持
[1] Li, R.#; Byun, J.#; Huang, W.; Ayed, C.; Wang, L.; Zhang, K.* Poly(benzothiadiazoles) a nd their derivatives as heterogeneous photocatalysts for visible-light-driven chemical transformations, ACS Catalysis, 2018, 8, 4735-4750.
[2] Li, R.; Ma, B. C.; Huang, W.; Wang, L.; Wang, D.; Lu, H.; Landfester, K.; Zhang, K.* Photocatalytic regioselective ans stereoselective [2+2] cycloaddition of styrene derivatives using a heterogeneous organic photocatalyst, ACS Catalysis, 2017, 7, 3097-3101.
[3] Li, R.; Wang, Z.; Wang, L.; Ma, B. C.; Ghasimi, S.; Lu, H.; Landfester, K.; Zhang, K.* Photocatalytic selective bromination of electron-rich aromatic compounds using microporous organic polymers with visible light, ACS Catalysis, 2016, 6, 1113-1121. (Highlight) Synfacts, 2016, 121, 534.
[4] Li, R.; Chen, C.; Li, J.; Xu, L.; Xiao, G.*; Yan, D. A facile approach to superhydrophobic a nd superoleophilic graphene/polymer aerogels, Journal of Materials Chemistry A, 2014, 2, 3057-3064. (ESI Highly cited paper)
[5] Wang, Z.#; Li, R.#; Landfester, K.; Zhang, K.* Porous conjugated polymer via metal-free synthesis for visible light-promoted oxidative hydroxylation of arylboronic acids, Polymer, 2017, 126, 291-295.
[6] Byun, J.; Huang, W.; Wang, D.; Li, R.; Zhang, K.* CO2-triggered switchable hydrophilicity of heterogeneous conjugated polymer photocatalyst for enhanced catalytic activity in water, Angewandte Chemie International Edition, 2018, 57, 2967-2971.
[7] Huang, W.; Byun, J.; Rorich, I.; Ramanan, C.; Blom, P.; Lu, H.; Wang, D.; Silva, L.; Li, R.; Wang, L.; Landfester, K.; Zhang, K.* Asymmetric covalent triazine framework for enhanced visible-light photoredox catalysis via energy transfer cascade, Angewandte Chemie International Edition, 2018, DOI: 10.1002/anie.201801112.
[8] Wang, L.; Rorich, I.; Ramanan, C.; Blom, P.; Huang, W.; Li, R.; Zhang, K.* Electron donor-free photoredox catalysis via electron transfer cascade by cooperative organic photocatalysts, Catalysis Science & Technology, 2018, DOI: 10.1039/c8cy01072b.
[9] Ayed, C.; Huang, W.; Li, R.; Caire, L.; Wang, D.; Suraeva, O.; Najjar, W.*; Zhang, K.* Conjugated microporous polymers with immobilizzed TiO2 nanoparticles for enhanced visible light photocatalysis, Particle & Particle Systems Characterization, 2018, 35, 1700234.
[10] Huang, W.; Ma, B. C.; Lu, H.; Li, R.; Wang, L.; Landfester, K.; Zhang, K.* Visible-light-promoted selective oxidation of alcohols using a covalent triazine framework, ACS Catalysis, 2017, 7, 5438-5442.
[11] Huang, W.; Ma, B. C.; Wang, D.; Wang, Z.; Li, R.; Wang, L.; Landfester, K.; Zhang, K.* A fixed-bed photoreactor using conjugated nanoporous polymer-coated glass fibers for visible light-promoted continuous photoredox reactopns, Journal of Materials Chemistry A, 2017, 5, 3792-3797.
[12] Wang, L.; Huang, W.; Li, R.; Gehrig, D.; Blom, P.; Landfester, K.; Zhang, K.* Structural design principle of small-molecule organic semiconductors for metal-free visible-light-promoted photocatalysis, Angewandte Chemie International Edition, 2016, 55, 9783-9787.
[13] Xu, L.; Xiao, G.*; Chen, C.; Li, R.; Mai, Y.; Sun, G.; Yan, D. Superhydrophobic and superoleophilic graphene areogel prepared by facile chemical reaction, Journal of Materials Chemistry A, 2015, 3, 7498-7504.
[14] Chen, C.; Li, J.; Li, R.; Xiao, G.*; Yan, D. Synthesis of superior dispersions of reduced graphene oxide, New Journal of Chemistry, 2013, 37. 2778-2783.
[15] Li, J.; Ciao, G.*; Chen, C.; Li, R.; Yan, D. Superior dispersions of reduced graphene oxide synthesized by using gallic acid as a reductant a nd stabilizer, Journal of Materials Chemistry A, 2013, 1, 1481-1487.
书籍章节:
[1] Huang, W.; Li, R.; Ma, B. C.; Zhang, K.* Nanostructured porous polymers for metal-free photocatalysis [D], Springer: Polymer-engineered nanostructures for advanced energy applications, 2017, 681-701.
会议:
[1] Run Li, Katharina Landfester, Kai Zhang, Photocatalytic selective bromination of aromatic compounds using microporous organic polymer with visible light, Polymer Photocatalysts for Solar Fuels Synthesis, April 13-14th, 2016, University College London, London, Catalysis Science & Technology Poster Prize.